ORF » Species Summary » Xenopus tropicalis » tns3 cDNA ORF clone

tns3 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • Gene

  • Clones

  • gRNAs

The following tns3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tns3 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OXa45057 XM_018094869.1
Latest version!		 Xenopus tropicalis tensin 3 (tns3), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa60848 XM_031904452.1
Latest version!		 Xenopus tropicalis tensin 3 (tns3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa60848 XM_031904453.1
Latest version!		 Xenopus tropicalis tensin 3 (tns3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    tns3 ( XM_018094869.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017950358.1 Xenopus tropicalis tensin 3 (tns3), mRNA.
    Price & Availability↑
    CloneID OXa45057
    Clone ID Related Accession (Same CDS sequence) XM_018094869.1
    Accession Version XM_018094869.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4242bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product tensin-3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGCACA TCGTGGAAGA ATGCTATGAA CTTGATCTCA CCTATATCAC AGAACGCATC 
    ATTTCAGTTT CTTTTCCAAG AAGTTCCTCA GAAGAGGCTT ACATCCATAA CCTACAGGAT 
    GTTACGTGCA TGTTGAAATC AAAACATGGA GACAGTTATT TGGTTTTGAA TCTATCCGAA 
    AAAAGATATG AGCTTTCCAA ACTCAACACT GAGGTCATGG ATGTGGGTTG GCCAGACTTC 
    CATGCTCCCC CACTAGATAA GATGTGCACT ATCTGTAAAG CTATGGAGTC TTGGTTGAAC 
    AGTGACCCTT TACATGTGGT TGTAATTCAC TGCAGAGGTG AAAGGGGAAG AATAGGAGTT 
    GTCATATCAT CATATATGCA TTTTACCAAT ATTTCTGCAA GTGCTGACCA AGCTCTTGAT 
    CGCTTTGCCA TGAAGAAATT TATTGATGAT AAAGTATCAG TATTACTTCA ACCATCCCAG 
    AAAAGATATG TTAATTTTCT GAACGAACTT CTATCTGGAT TGGAAAAAAT GAATGTGATG 
    CCTCTCTTCT TGCATTCAGT TATTCTCCAC GGCATTCCAA ATTTTGATTC AGCAGACAGG 
    TGTCAATTCT TCCTAAAGAT CTACATTGCC ATGCAACCTG TGTATACATC AGGAATTTAC 
    CTTGTTGGCC CAGAAAACCA GGGTAAAATC TATATTGAAA TTGAACCAGC CCAGCTTATC 
    AAGGGAGATA TTATGCTCAA GTGTTATCAT CCGTCTGTCA CACGTGATCT TGTTTTCAGA 
    CTACAGTTTC ATACGGGGGC TATTCATAGC CATCGGGTGA TATTTTGCAA GGAGGACCTG 
    GATCATGCTA ATATTGATGA CAGATTCCCT GAATATGGGA GAATAGAACT GGTATTTTCG 
    GGAGGTCCTG AAAAAAATCC AGAAAACTTT TATAACAACC AGGGAGTAAC AATTGACTAC 
    AATACCTCTG ATCCTCTAAT AAGATGGGAT TCATATGAAA ATACAAACAT TGACGGAGAG 
    AGCTTCTCAC ACACACAGGG GCCTCTTGAT GGTAGTTTGT ATGCCAGAGT GAGAAAGAAG 
    AGTACATCAA ATGGAATTAC TACCGTTGCT GGATCTGGTT TTCCTCTGAC CAGGAGTCCT 
    GACCACAGTG AACACTCTTT GTCTGTAAGC AGTGATTCTG GTCATTCCAC TGCTTCTATA 
    AAGAACAGAG TGACAGCCGA AAAATCTGGA TCCATAAGCA AAAAAGGTTT AAGCCCACAA 
    GAAAAAGTAG AACTGGATCA ACTGCTGAGT GGTTTTGGAG TAGAAAGCAC AATGTGTTCG 
    TTAAAGAACA TAGCTGACGG TCAAAGCAAC TATGGTGGCG TTGAGAGAAT GATCTCAGCT 
    CGGATTTATG TAAATGGAGA TGCCAAACTT AAAGACAGAG AAACGGACAT TCTAGATGAT 
    GAAATGACAA ATAATGATTT GAATAGTGTG GACAGCCTAG GTACTTTATC ATCATCCGAG 
    GGTCACCATT TTAATAATAT TGGAAATTTC AGCTGTCATG AGAGTAGTCA GAATTCTTTG 
    CTGTCTGATG GCTTTAGCAA CAAAATTGGT GAGGATCGCC ATGACGTATT AACATTGGAT 
    TTTGGTGTGC CTGTGGATTC CATGTATGAA AGATCATTTG CTGATAGACA ACTAAAACCA 
    GTTTATCTAC CGCCTACCCA AGCCCCTGCC TATGCACAAA GTAACTACTC TACTCAGTCT 
    TGGGTACGTC AACAACAAAT GGTTAGTTCT CATCGGTACG GTTATTCGGC TGATAATGAA 
    CTTATGTATA ACATGCATAG TTCTCTAGAG ACTTCTAACA TTCCCAATAC ACCAAAAGCC 
    TCTGTGATTC AAAATAAGGG ATTCCCATGT GAAAACAAAA TAACAGGTAC TTTGGAAACA 
    GATTTGTCAG ACTCTGTTCA AGACCAGGTT CCAAAGTGTA TTGAACATAT AATGCTGGAA 
    AAGGAAACAA TAAATCAAAC AGAGATAACA AACCATGATT TTCCCTCTTC TCCTACGCTG 
    GATATAGACC AGTCAATCGA ACAGCTAAAT AAATTAATCT TGGAGCTGGA TCCAACATTT 
    GAGCCCATTC CAACAAGAAT AAATACAAGT TCTACTGTTG AAAGTTCCCT AAATGCTATT 
    TTAAGTGGTG ATCTTGAGAA AGATGGTATA CTCCTGCAAA GTCCTTTAGA AGCAAAGCAA 
    GGGGGTGACA GCTTCCAAGA AGGTTCAAAA AAAGGCAGTG CATCACTGGC AGCTGCCAGA 
    AAACTGAGTT TTGGGCAGTA TGATAATGGT AACACAGACC CCCTGCAATA CTGCAGTTAT 
    GGCTGGAAGA CATCCCCTGA ACAGATTGCC TCGACAAAAA CCTTGCCCCT TATTGGACAT 
    TCAAAAGAGG GCCACACTCT TCATTACCAG GGACAGTATG ATGAAGTAGA TAATATCTTT 
    TCAAGGAGTT CTCAAGTAGT TGAGACTGTT CCTCCAACAC CTTCTTTTCC CTACAATTTT 
    TATTTTATTC TTCTTGTTTC AATTGCAGTC AGAACTCATC TCAGTTATTC TCAGCCACAT 
    GAAGAAGGAT ATCATACACC CCATTTGACA GAAATACTTC ATTTAGGTGG TGATACTTCA 
    AATTATAGTG AAAGCCGTCA CCAGACAGTG CTGGAATCTG TTACTTCAAG TGACTTAAAC 
    TCTTCCTTGT GTATGACTGA AATGCAGAGA CCAACAGTTC CAAGGCTGTC CAATGCTGTG 
    TTCTCCAGAA GAGATGACTG TTCTTTGGAT AATGAAAATT TCTGGCTAGA AAATTCCCCC 
    ACTCCCTTGT TGTCCTCACA GCCATCTCTG AAGAGCAGAT CTCAAGTGAA TTGCCCGCTA 
    TCAACAGAAT ATCCTAATCC AATGGTAGAG AAATCAGTAC TGACTCAGGA AACAACACTT 
    AGCCTTGAGG CTCTTACAAT ATGCAATCCA GAATTTGTAT CATCAAACTC TCAAGATATC 
    CTTGCAAACC CACATCTATA CTTGAACTTT GATGGTACTG GTAATAACCT GCCTTTGTTG 
    GATGAGAGAC ATGTAGCATT TATGTCCAGT ACCAAGGGTT CACCAAAAGT TGGAAGATCA 
    GCTGACTCTG CAATTAACAG CAAAGAACAA AGAAGTCCAT TCCTACAACG TTCAGGAAAA 
    AAAAAATATT CACATCCTCC TCTTCCAGAG AAAAAAAGGA TATCTGAAGG AGAACATTCA 
    TTTGGTTCTA TCTCTCCATC TTCCAGTGGT TTTTCAAGTC CCAACAGTGG TAGTACAATC 
    AGCATTCCAT TTCCCAATGT CCTTCCAGAC TTTTCTCAAG TATTAAGTGA ATTTCCAGTT 
    TCAGAAAATT CTTCAGATAA GCATATGACC GTGAAATTTG TCCAAGATAC TTCTAAGTTT 
    TGGTATAAAC CAGACATTTC AAGAGATCAA GCTATTGCAG TTCTAAAGGA CAAAGAACCT 
    GGCTCTTTTA TTGTAAGAGA CAGCCACTCT TTCAAAGGAG CTTATGGCCT TGCCATGAAA 
    GTTGCTACTC CTCCTCCATC TGTATTGCAT AGTAGCAAGA AAGGTTTGGA TTTGACAAAT 
    GAACTTGTCA GGCACTTCTT GATTGAATGT GTTCATAAGG GAGTGAGATT AAAGGGATGT 
    CCAAATGAAC CATATTTTGG TAGTTTGACA GCCCTGGTTT ATCAACATTC CATTACTCCA 
    CTGGCGCTAC CTTGTAAATT ACTTATACCA GACAAAGATC CACTGGAAGA AATTCCTGCA 
    GCAACACCCC AGTCAGCTGC CAATTCTGCT GCTGAATTGC TGAAGCAAGG TGCTGCGTGC 
    AATGTTTGGT ATCTCAATTC CGTGGAAATG GAGTCACTTA CTGGATACCA AGCTGTGCAG 
    AAGGCTTTAT CTATAACACA GCTTCAGGAG CCACCTCCCA TCTCAACTGT AGTCCATTTC 
    AAGGTGTCTG CACAAGGAAT CACTCTAACT GATAATCAAA GAAAGTTGTT TTTCCGAAGA 
    CATTATCCAG TAAACACTGT GATTTTCTGT GCTCTGGATC CACAAGACAG GAAGTGGACA 
    AGAGATGGAC TTTCTGCAAA AGTTTTTGGC TTTGTGGCGA GGAAGGGCGC GGGCAACCAC 
    AACATTTGTC ACCTCTTTGC AGAACATGAC CCAGAACAAC CTGCTAGTGC CATCGTAAAC 
    TTTGTGTCAA AAGTCATGAT TGGCTCACAA AAGAAAATGT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017950358.1
    CDS168..4409
    Translation

    Target ORF information:

    RefSeq Version XM_018094869.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tensin 3 (tns3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018094869.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGCACA TCGTGGAAGA ATGCTATGAA CTTGATCTCA CCTATATCAC AGAACGCATC 
    ATTTCAGTTT CTTTTCCAAG AAGTTCCTCA GAAGAGGCTT ACATCCATAA CCTACAGGAT 
    GTTACGTGCA TGTTGAAATC AAAACATGGA GACAGTTATT TGGTTTTGAA TCTATCCGAA 
    AAAAGATATG AGCTTTCCAA ACTCAACACT GAGGTCATGG ATGTGGGTTG GCCAGACTTC 
    CATGCTCCCC CACTAGATAA GATGTGCACT ATCTGTAAAG CTATGGAGTC TTGGTTGAAC 
    AGTGACCCTT TACATGTGGT TGTAATTCAC TGCAGAGGTG AAAGGGGAAG AATAGGAGTT 
    GTCATATCAT CATATATGCA TTTTACCAAT ATTTCTGCAA GTGCTGACCA AGCTCTTGAT 
    CGCTTTGCCA TGAAGAAATT TATTGATGAT AAAGTATCAG TATTACTTCA ACCATCCCAG 
    AAAAGATATG TTAATTTTCT GAACGAACTT CTATCTGGAT TGGAAAAAAT GAATGTGATG 
    CCTCTCTTCT TGCATTCAGT TATTCTCCAC GGCATTCCAA ATTTTGATTC AGCAGACAGG 
    TGTCAATTCT TCCTAAAGAT CTACATTGCC ATGCAACCTG TGTATACATC AGGAATTTAC 
    CTTGTTGGCC CAGAAAACCA GGGTAAAATC TATATTGAAA TTGAACCAGC CCAGCTTATC 
    AAGGGAGATA TTATGCTCAA GTGTTATCAT CCGTCTGTCA CACGTGATCT TGTTTTCAGA 
    CTACAGTTTC ATACGGGGGC TATTCATAGC CATCGGGTGA TATTTTGCAA GGAGGACCTG 
    GATCATGCTA ATATTGATGA CAGATTCCCT GAATATGGGA GAATAGAACT GGTATTTTCG 
    GGAGGTCCTG AAAAAAATCC AGAAAACTTT TATAACAACC AGGGAGTAAC AATTGACTAC 
    AATACCTCTG ATCCTCTAAT AAGATGGGAT TCATATGAAA ATACAAACAT TGACGGAGAG 
    AGCTTCTCAC ACACACAGGG GCCTCTTGAT GGTAGTTTGT ATGCCAGAGT GAGAAAGAAG 
    AGTACATCAA ATGGAATTAC TACCGTTGCT GGATCTGGTT TTCCTCTGAC CAGGAGTCCT 
    GACCACAGTG AACACTCTTT GTCTGTAAGC AGTGATTCTG GTCATTCCAC TGCTTCTATA 
    AAGAACAGAG TGACAGCCGA AAAATCTGGA TCCATAAGCA AAAAAGGTTT AAGCCCACAA 
    GAAAAAGTAG AACTGGATCA ACTGCTGAGT GGTTTTGGAG TAGAAAGCAC AATGTGTTCG 
    TTAAAGAACA TAGCTGACGG TCAAAGCAAC TATGGTGGCG TTGAGAGAAT GATCTCAGCT 
    CGGATTTATG TAAATGGAGA TGCCAAACTT AAAGACAGAG AAACGGACAT TCTAGATGAT 
    GAAATGACAA ATAATGATTT GAATAGTGTG GACAGCCTAG GTACTTTATC ATCATCCGAG 
    GGTCACCATT TTAATAATAT TGGAAATTTC AGCTGTCATG AGAGTAGTCA GAATTCTTTG 
    CTGTCTGATG GCTTTAGCAA CAAAATTGGT GAGGATCGCC ATGACGTATT AACATTGGAT 
    TTTGGTGTGC CTGTGGATTC CATGTATGAA AGATCATTTG CTGATAGACA ACTAAAACCA 
    GTTTATCTAC CGCCTACCCA AGCCCCTGCC TATGCACAAA GTAACTACTC TACTCAGTCT 
    TGGGTACGTC AACAACAAAT GGTTAGTTCT CATCGGTACG GTTATTCGGC TGATAATGAA 
    CTTATGTATA ACATGCATAG TTCTCTAGAG ACTTCTAACA TTCCCAATAC ACCAAAAGCC 
    TCTGTGATTC AAAATAAGGG ATTCCCATGT GAAAACAAAA TAACAGGTAC TTTGGAAACA 
    GATTTGTCAG ACTCTGTTCA AGACCAGGTT CCAAAGTGTA TTGAACATAT AATGCTGGAA 
    AAGGAAACAA TAAATCAAAC AGAGATAACA AACCATGATT TTCCCTCTTC TCCTACGCTG 
    GATATAGACC AGTCAATCGA ACAGCTAAAT AAATTAATCT TGGAGCTGGA TCCAACATTT 
    GAGCCCATTC CAACAAGAAT AAATACAAGT TCTACTGTTG AAAGTTCCCT AAATGCTATT 
    TTAAGTGGTG ATCTTGAGAA AGATGGTATA CTCCTGCAAA GTCCTTTAGA AGCAAAGCAA 
    GGGGGTGACA GCTTCCAAGA AGGTTCAAAA AAAGGCAGTG CATCACTGGC AGCTGCCAGA 
    AAACTGAGTT TTGGGCAGTA TGATAATGGT AACACAGACC CCCTGCAATA CTGCAGTTAT 
    GGCTGGAAGA CATCCCCTGA ACAGATTGCC TCGACAAAAA CCTTGCCCCT TATTGGACAT 
    TCAAAAGAGG GCCACACTCT TCATTACCAG GGACAGTATG ATGAAGTAGA TAATATCTTT 
    TCAAGGAGTT CTCAAGTAGT TGAGACTGTT CCTCCAACAC CTTCTTTTCC CTACAATTTT 
    TATTTTATTC TTCTTGTTTC AATTGCAGTC AGAACTCATC TCAGTTATTC TCAGCCACAT 
    GAAGAAGGAT ATCATACACC CCATTTGACA GAAATACTTC ATTTAGGTGG TGATACTTCA 
    AATTATAGTG AAAGCCGTCA CCAGACAGTG CTGGAATCTG TTACTTCAAG TGACTTAAAC 
    TCTTCCTTGT GTATGACTGA AATGCAGAGA CCAACAGTTC CAAGGCTGTC CAATGCTGTG 
    TTCTCCAGAA GAGATGACTG TTCTTTGGAT AATGAAAATT TCTGGCTAGA AAATTCCCCC 
    ACTCCCTTGT TGTCCTCACA GCCATCTCTG AAGAGCAGAT CTCAAGTGAA TTGCCCGCTA 
    TCAACAGAAT ATCCTAATCC AATGGTAGAG AAATCAGTAC TGACTCAGGA AACAACACTT 
    AGCCTTGAGG CTCTTACAAT ATGCAATCCA GAATTTGTAT CATCAAACTC TCAAGATATC 
    CTTGCAAACC CACATCTATA CTTGAACTTT GATGGTACTG GTAATAACCT GCCTTTGTTG 
    GATGAGAGAC ATGTAGCATT TATGTCCAGT ACCAAGGGTT CACCAAAAGT TGGAAGATCA 
    GCTGACTCTG CAATTAACAG CAAAGAACAA AGAAGTCCAT TCCTACAACG TTCAGGAAAA 
    AAAAAATATT CACATCCTCC TCTTCCAGAG AAAAAAAGGA TATCTGAAGG AGAACATTCA 
    TTTGGTTCTA TCTCTCCATC TTCCAGTGGT TTTTCAAGTC CCAACAGTGG TAGTACAATC 
    AGCATTCCAT TTCCCAATGT CCTTCCAGAC TTTTCTCAAG TATTAAGTGA ATTTCCAGTT 
    TCAGAAAATT CTTCAGATAA GCATATGACC GTGAAATTTG TCCAAGATAC TTCTAAGTTT 
    TGGTATAAAC CAGACATTTC AAGAGATCAA GCTATTGCAG TTCTAAAGGA CAAAGAACCT 
    GGCTCTTTTA TTGTAAGAGA CAGCCACTCT TTCAAAGGAG CTTATGGCCT TGCCATGAAA 
    GTTGCTACTC CTCCTCCATC TGTATTGCAT AGTAGCAAGA AAGGTTTGGA TTTGACAAAT 
    GAACTTGTCA GGCACTTCTT GATTGAATGT GTTCATAAGG GAGTGAGATT AAAGGGATGT 
    CCAAATGAAC CATATTTTGG TAGTTTGACA GCCCTGGTTT ATCAACATTC CATTACTCCA 
    CTGGCGCTAC CTTGTAAATT ACTTATACCA GACAAAGATC CACTGGAAGA AATTCCTGCA 
    GCAACACCCC AGTCAGCTGC CAATTCTGCT GCTGAATTGC TGAAGCAAGG TGCTGCGTGC 
    AATGTTTGGT ATCTCAATTC CGTGGAAATG GAGTCACTTA CTGGATACCA AGCTGTGCAG 
    AAGGCTTTAT CTATAACACA GCTTCAGGAG CCACCTCCCA TCTCAACTGT AGTCCATTTC 
    AAGGTGTCTG CACAAGGAAT CACTCTAACT GATAATCAAA GAAAGTTGTT TTTCCGAAGA 
    CATTATCCAG TAAACACTGT GATTTTCTGT GCTCTGGATC CACAAGACAG GAAGTGGACA 
    AGAGATGGAC TTTCTGCAAA AGTTTTTGGC TTTGTGGCGA GGAAGGGCGC GGGCAACCAC 
    AACATTTGTC ACCTCTTTGC AGAACATGAC CCAGAACAAC CTGCTAGTGC CATCGTAAAC 
    TTTGTGTCAA AAGTCATGAT TGGCTCACAA AAGAAAATGT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    tns3 ( XM_031904452.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031760312.1 Xenopus tropicalis tensin 3 (tns3), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa60848
    Clone ID Related Accession (Same CDS sequence) XM_031904452.1 , XM_031904453.1
    Accession Version XM_031904452.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product tensin-3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGCACA TCGTGGAAGA ATGCTATGAA CTTGATCTCA CCTATATCAC AGAACGCATC 
    ATTTCAGTTT CTTTTCCAAG AAGTTCCTCA GAAGAGGCTT ACATCCATAA CCTACAGGAT 
    GTTACGTGCA TGTTGAAATC AAAACATGGA GACAGTTATT TGGTTTTGAA TCTATCCGAA 
    AAAAGATATG AGCTTTCCAA ACTCAACACT GAGGTCATGG ATGTGGGTTG GCCAGACTTC 
    CATGCTCCCC CACTAGATAA GATGTGCACT ATCTGTAAAG CTATGGAGTC TTGGTTGAAC 
    AGTGACCCTT TACATGTGGT TGTAATTCAC TGCAGAGGTG AAAGGGGAAG AATAGGAGTT 
    GTCATATCAT CATATATGCA TTTTACCAAT ATTTCTGCAA GTGCTGACCA AGCTCTTGAT 
    CGCTTTGCCA TGAAGAAATT TATTGATGAT AAAGTATCAG TATTACTTCA ACCATCCCAG 
    AAAAGATATG TTAATTTTCT GAACGAACTT CTATCTGGAT TGGAAAAAAT GAATGTGATG 
    CCTCTCTTCT TGCATTCAGT TATTCTCCAC GGCATTCCAA ATTTTGATTC AGCAGACAGG 
    TGTCAATTCT TCCTAAAGAT CTACATTGCC ATGCAACCTG TGTATACATC AGGAATTTAC 
    CTTGTTGGCC CAGAAAACCA GGGTAAAATC TATATTGAAA TTGAACCAGC CCAGCTTATC 
    AAGGGAGATA TTATGCTCAA GTGTTATCAT CCGTCTGTCA CACGTGATCT TGTTTTCAGA 
    CTACAGTTTC ATACGGGGGC TATTCATAGC CATCGGGTGA TATTTTGCAA GGAGGACCTG 
    GATCATGCTA ATATTGATGA CAGATTCCCT GAATATGGGA GAATAGAACT GGTATTTTCG 
    GGAGGTCCTG AAAAAAATCC AGAAAACTTT TATAACAACC AGGGAGTAAC AATTGACTAC 
    AATACCTCTG ATCCTCTAAT AAGATGGGAT TCATATGAAA ATACAAACAT TGTCAGTGAA 
    GGCTTCTCAC ACACACAGGG GCCTCTTGAT GGTAGTTTGT ATGCCAGAGT GAGAAAGAAG 
    AGTACATCAA ATGGAATTAC TACCGTTGCT GGATCTGGTT TTCCTCTGAC CAGGAGTCCT 
    GACCACAGTG AACACTCTTT GTCTGTAAGC AGTGATTCTG GTCATTCCAC TGCTTCTATA 
    AAGAACAGAG TGACAGCCGA AAAATCTGGA TCCATAAGCA AAAAAGGTTT AAGCCCACAA 
    GAAAAAGTAG AACTGGATCA ACTGCTGAGT GGTTTTGGAG TAGAAAGCAC AATGTGTTCG 
    TTAAAGAACA TAGCTGACGG TCAAAGCAAC TATGGTGGCG TTGAGAGAAT GATCTCAGCT 
    CGGATTTATG TAAATGGAGA TGCCAAACTT AAAGACAGAG AAACGGACAT TCTAGATGAT 
    GAAATGACAA ATAATGATTT GAATAGTGTG GACAGCCTAG GTACTTTATC ATCATCCGAG 
    GGTCACCATT TTAATAATAT TGGAAATTTC AGCTGTCATG AGAGTAGTCA GAATTCTTTG 
    CTGTCTGATG GCTTTAGCAA CAAAATTGGT GAGGATCGCC ATGACGTATT AACATTGGAT 
    TTTGGTGTGC CTGTGGATTC CATGTATGAA AGATCATTTG CTGATAGACA ACTAAAACCA 
    GTTTATCTAC CGCCTACCCA AGCCCCTGCC TATGCACAAA GTAACTACTC TACTCAGTCT 
    TGGGTACGTC AACAACAAAT GGTTAGTTCT CATCGGTACG GTTATTCGGC TGATAATGAA 
    CTTATGTATA ACATGCATAG TTCTCTAGAG ACTTCTAACA TTCCCAATAC ACCAAAAGCC 
    TCTGTGATTC AAAATAAGGG ATTCCCATGT GAAAACAAAA TAACAGGTAC TTTGGAAACA 
    GATTTGTCAG ACTCTGTTCA AGACCAGGTT CCAAAGTGTA TTGAACATAT AATGCTGGAA 
    AAGGAAACAA TAAATCAAAC AGAGATAACA AACCATGATT TTCCCTCTTC TCCTACGCTG 
    GATATAGACC AGTCAATCGA ACAGCTAAAT AAATTAATCT TGGAGCTGGA TCCAACATTT 
    GAGCCCATTC CAACAAGAAT AAATACAAGT TCTACTGTTG AAAGTTCCCT AAATGCTATT 
    TTAAGTGGTG ATCTTGAGAA AGATGGTATA CTCCTGCAAA GTCCTTTAGA AGCAAAGCAA 
    GGGGGTGACA GCTTCCAAGA AGGTTCAAAA AAAGGCAGTG CATCACTGGC AGCTGCCAGA 
    AAACTGAGTT TTGGGCAGTA TGATAATGGT AACACAGACC CCCTGCAATA CTGCAGTTAT 
    GGCTGGAAGA CATCCCCTGA ACAGATTGCC TCGACAAAAA CCTTGCCCCT TATTGGACAT 
    TCAAAAGAGG GCCACACTCT TCATTACCAG GGACAGTATG ATGAAGTAGA TAATATCTTT 
    TCAAGGAGTT CTCAAGGAGT TGAGACTGTT CCTCCAACAC CTTCTTTTCC AGTATCACCA 
    GACACACCAT ATGTCAGAAC TCATCTCAGT TATTCTCAGC CACATGAAGA AGGATATCAT 
    ACACCCCATT TGACAGAAAT ACTTCATTTA GGTGGTGATA CTTCAAATTA TAGTGAAAGC 
    CGTCACCAGA CAGTGCTGGA ATCTGTTACT TCAAGTGACT TAAACTCTTC CTTGTGTATG 
    ACTGAAATGC AGAGACCAAC AGTTCCAAAG CTGTCCAATG CTGTGTTCTC CAGAAGAGAT 
    GACTGTTCTT TGGATAATGA AAATTTCTGG CTAGAAAATT CCCCCACTCC CTTGTTGTCC 
    TCACAGCCAT CTCTGAAGAG CAGATCTCAA GTGAATTGCC CGCTATCAAC AGAATATCCT 
    AATCCAATGG TAGAGAAATC AGTACTGACT CAGGAAACAA CACTTAGCCT TGAGGCTCTT 
    ACAATATGCA ATCCAGAATT TGCATCATCA AACTCTCAAG ATATCCTTGC AAACCCACAT 
    CTATACTTGA ACTTTGATGG TACTGGTAAT AACCTGCCTT TGTTGGATGA GAGACATGTA 
    GCATTTATGT CCAGTACCAA GGGTTCACCA AAAGTTGGAA GATCAGCTGA CTCTGCAATT 
    AACAGCAAAG AACAAAGAAG TCCATTCCTA CAACGTTCAG GAAAAAAAAA ATATTCACAT 
    CCTCCTCTTC CAGAGAAAAA AAGAATATCT GAAGGAGAAC ATTCATTTGG TTCTATCTCT 
    CCATCTTCCA GTGGTTTTTC AAGTCCCAAC AGTGGTAGTA CAATCAGCAT TCCATTTCCC 
    AATGTCCTTC CAGACTTTTC TCAAGTAATA AGTGAATTTC CAGTTTCAGA AAATTCTTCA 
    GATAAGCATA TGACAGTGAA ATTTGTCCAA GATACTTCTA AGTTTTGGTA TAAACCAGAC 
    ATTTCAAGAG ATCAAGCTAT TGCAGTTCTA AAGGACAAAG AACCTGGCTC TTTTATTGTA 
    AGAGACAGCC ACTCTTTCAA AGGAGCTTAT GGCCTTGCCA TGAAAGTTGC TACTCCTCCT 
    CCATCTGTAT TGCATAGTAG CAAGAAAGGT TTGGATTTGA CAAATGAACT TGTCAGGCAC 
    TTCTTGATTG AATGTGTTCA TAAGGGAGTG AGATTAAAGG GATGTCCAAA TGAACCATAT 
    TTTGGTAGTT TGACAGCCCT GGTTTATCAA CATTCCATTA CTCCACTGGC GCTACCTTGT 
    AAATTACTTA TACCAGACAA AGATCCACTG GAAGAAATTC CTGCAGCAAC ACCCCAGTCA 
    GCTGCCAATT CTGCTGCTGA ATTGCTGAAG CAAGGTGCTG CGTGCAATGT TTGGTATCTC 
    AATTCCGTGG AAATGGAGTC ACTTACTGGA TACCAAGCTG TGCAGAAGGC TTTATCTATA 
    ACACAGCTTC AGGAGCCACC TCCCATCTCA ACTGTAGTCC ATTTCAAGGT GTCTGCACAA 
    GGAATCACTC TAACTGATAA TCAAAGAAAG TTGTTTTTCC GAAGACATTA TCCAGTAAAC 
    ACTGTGATTT TCTGTGCTCT GGATCCACAA GACAGGAAGT GGACAAGAGA TGGACTTTCT 
    GCAAAAGTTT TTGGCTTTGT GGCGAGGAAG GGCGCGGGCA ACCACAACAT TTGTCACCTC 
    TTTGCAGAAC ATGACCCAGA ACAACCTGCT AGTGCCATCG TAAACTTTGT GTCAAAAGTC 
    ATGATTGGCT CACAAAAGAA AATGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_031760312.1
    CDS145..4371
    Translation

    Target ORF information:

    RefSeq Version XM_031904452.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tensin 3 (tns3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031904452.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGCACA TCGTGGAAGA ATGCTATGAA CTTGATCTCA CCTATATCAC AGAACGCATC 
    ATTTCAGTTT CTTTTCCAAG AAGTTCCTCA GAAGAGGCTT ACATCCATAA CCTACAGGAT 
    GTTACGTGCA TGTTGAAATC AAAACATGGA GACAGTTATT TGGTTTTGAA TCTATCCGAA 
    AAAAGATATG AGCTTTCCAA ACTCAACACT GAGGTCATGG ATGTGGGTTG GCCAGACTTC 
    CATGCTCCCC CACTAGATAA GATGTGCACT ATCTGTAAAG CTATGGAGTC TTGGTTGAAC 
    AGTGACCCTT TACATGTGGT TGTAATTCAC TGCAGAGGTG AAAGGGGAAG AATAGGAGTT 
    GTCATATCAT CATATATGCA TTTTACCAAT ATTTCTGCAA GTGCTGACCA AGCTCTTGAT 
    CGCTTTGCCA TGAAGAAATT TATTGATGAT AAAGTATCAG TATTACTTCA ACCATCCCAG 
    AAAAGATATG TTAATTTTCT GAACGAACTT CTATCTGGAT TGGAAAAAAT GAATGTGATG 
    CCTCTCTTCT TGCATTCAGT TATTCTCCAC GGCATTCCAA ATTTTGATTC AGCAGACAGG 
    TGTCAATTCT TCCTAAAGAT CTACATTGCC ATGCAACCTG TGTATACATC AGGAATTTAC 
    CTTGTTGGCC CAGAAAACCA GGGTAAAATC TATATTGAAA TTGAACCAGC CCAGCTTATC 
    AAGGGAGATA TTATGCTCAA GTGTTATCAT CCGTCTGTCA CACGTGATCT TGTTTTCAGA 
    CTACAGTTTC ATACGGGGGC TATTCATAGC CATCGGGTGA TATTTTGCAA GGAGGACCTG 
    GATCATGCTA ATATTGATGA CAGATTCCCT GAATATGGGA GAATAGAACT GGTATTTTCG 
    GGAGGTCCTG AAAAAAATCC AGAAAACTTT TATAACAACC AGGGAGTAAC AATTGACTAC 
    AATACCTCTG ATCCTCTAAT AAGATGGGAT TCATATGAAA ATACAAACAT TGTCAGTGAA 
    GGCTTCTCAC ACACACAGGG GCCTCTTGAT GGTAGTTTGT ATGCCAGAGT GAGAAAGAAG 
    AGTACATCAA ATGGAATTAC TACCGTTGCT GGATCTGGTT TTCCTCTGAC CAGGAGTCCT 
    GACCACAGTG AACACTCTTT GTCTGTAAGC AGTGATTCTG GTCATTCCAC TGCTTCTATA 
    AAGAACAGAG TGACAGCCGA AAAATCTGGA TCCATAAGCA AAAAAGGTTT AAGCCCACAA 
    GAAAAAGTAG AACTGGATCA ACTGCTGAGT GGTTTTGGAG TAGAAAGCAC AATGTGTTCG 
    TTAAAGAACA TAGCTGACGG TCAAAGCAAC TATGGTGGCG TTGAGAGAAT GATCTCAGCT 
    CGGATTTATG TAAATGGAGA TGCCAAACTT AAAGACAGAG AAACGGACAT TCTAGATGAT 
    GAAATGACAA ATAATGATTT GAATAGTGTG GACAGCCTAG GTACTTTATC ATCATCCGAG 
    GGTCACCATT TTAATAATAT TGGAAATTTC AGCTGTCATG AGAGTAGTCA GAATTCTTTG 
    CTGTCTGATG GCTTTAGCAA CAAAATTGGT GAGGATCGCC ATGACGTATT AACATTGGAT 
    TTTGGTGTGC CTGTGGATTC CATGTATGAA AGATCATTTG CTGATAGACA ACTAAAACCA 
    GTTTATCTAC CGCCTACCCA AGCCCCTGCC TATGCACAAA GTAACTACTC TACTCAGTCT 
    TGGGTACGTC AACAACAAAT GGTTAGTTCT CATCGGTACG GTTATTCGGC TGATAATGAA 
    CTTATGTATA ACATGCATAG TTCTCTAGAG ACTTCTAACA TTCCCAATAC ACCAAAAGCC 
    TCTGTGATTC AAAATAAGGG ATTCCCATGT GAAAACAAAA TAACAGGTAC TTTGGAAACA 
    GATTTGTCAG ACTCTGTTCA AGACCAGGTT CCAAAGTGTA TTGAACATAT AATGCTGGAA 
    AAGGAAACAA TAAATCAAAC AGAGATAACA AACCATGATT TTCCCTCTTC TCCTACGCTG 
    GATATAGACC AGTCAATCGA ACAGCTAAAT AAATTAATCT TGGAGCTGGA TCCAACATTT 
    GAGCCCATTC CAACAAGAAT AAATACAAGT TCTACTGTTG AAAGTTCCCT AAATGCTATT 
    TTAAGTGGTG ATCTTGAGAA AGATGGTATA CTCCTGCAAA GTCCTTTAGA AGCAAAGCAA 
    GGGGGTGACA GCTTCCAAGA AGGTTCAAAA AAAGGCAGTG CATCACTGGC AGCTGCCAGA 
    AAACTGAGTT TTGGGCAGTA TGATAATGGT AACACAGACC CCCTGCAATA CTGCAGTTAT 
    GGCTGGAAGA CATCCCCTGA ACAGATTGCC TCGACAAAAA CCTTGCCCCT TATTGGACAT 
    TCAAAAGAGG GCCACACTCT TCATTACCAG GGACAGTATG ATGAAGTAGA TAATATCTTT 
    TCAAGGAGTT CTCAAGGAGT TGAGACTGTT CCTCCAACAC CTTCTTTTCC AGTATCACCA 
    GACACACCAT ATGTCAGAAC TCATCTCAGT TATTCTCAGC CACATGAAGA AGGATATCAT 
    ACACCCCATT TGACAGAAAT ACTTCATTTA GGTGGTGATA CTTCAAATTA TAGTGAAAGC 
    CGTCACCAGA CAGTGCTGGA ATCTGTTACT TCAAGTGACT TAAACTCTTC CTTGTGTATG 
    ACTGAAATGC AGAGACCAAC AGTTCCAAAG CTGTCCAATG CTGTGTTCTC CAGAAGAGAT 
    GACTGTTCTT TGGATAATGA AAATTTCTGG CTAGAAAATT CCCCCACTCC CTTGTTGTCC 
    TCACAGCCAT CTCTGAAGAG CAGATCTCAA GTGAATTGCC CGCTATCAAC AGAATATCCT 
    AATCCAATGG TAGAGAAATC AGTACTGACT CAGGAAACAA CACTTAGCCT TGAGGCTCTT 
    ACAATATGCA ATCCAGAATT TGCATCATCA AACTCTCAAG ATATCCTTGC AAACCCACAT 
    CTATACTTGA ACTTTGATGG TACTGGTAAT AACCTGCCTT TGTTGGATGA GAGACATGTA 
    GCATTTATGT CCAGTACCAA GGGTTCACCA AAAGTTGGAA GATCAGCTGA CTCTGCAATT 
    AACAGCAAAG AACAAAGAAG TCCATTCCTA CAACGTTCAG GAAAAAAAAA ATATTCACAT 
    CCTCCTCTTC CAGAGAAAAA AAGAATATCT GAAGGAGAAC ATTCATTTGG TTCTATCTCT 
    CCATCTTCCA GTGGTTTTTC AAGTCCCAAC AGTGGTAGTA CAATCAGCAT TCCATTTCCC 
    AATGTCCTTC CAGACTTTTC TCAAGTAATA AGTGAATTTC CAGTTTCAGA AAATTCTTCA 
    GATAAGCATA TGACAGTGAA ATTTGTCCAA GATACTTCTA AGTTTTGGTA TAAACCAGAC 
    ATTTCAAGAG ATCAAGCTAT TGCAGTTCTA AAGGACAAAG AACCTGGCTC TTTTATTGTA 
    AGAGACAGCC ACTCTTTCAA AGGAGCTTAT GGCCTTGCCA TGAAAGTTGC TACTCCTCCT 
    CCATCTGTAT TGCATAGTAG CAAGAAAGGT TTGGATTTGA CAAATGAACT TGTCAGGCAC 
    TTCTTGATTG AATGTGTTCA TAAGGGAGTG AGATTAAAGG GATGTCCAAA TGAACCATAT 
    TTTGGTAGTT TGACAGCCCT GGTTTATCAA CATTCCATTA CTCCACTGGC GCTACCTTGT 
    AAATTACTTA TACCAGACAA AGATCCACTG GAAGAAATTC CTGCAGCAAC ACCCCAGTCA 
    GCTGCCAATT CTGCTGCTGA ATTGCTGAAG CAAGGTGCTG CGTGCAATGT TTGGTATCTC 
    AATTCCGTGG AAATGGAGTC ACTTACTGGA TACCAAGCTG TGCAGAAGGC TTTATCTATA 
    ACACAGCTTC AGGAGCCACC TCCCATCTCA ACTGTAGTCC ATTTCAAGGT GTCTGCACAA 
    GGAATCACTC TAACTGATAA TCAAAGAAAG TTGTTTTTCC GAAGACATTA TCCAGTAAAC 
    ACTGTGATTT TCTGTGCTCT GGATCCACAA GACAGGAAGT GGACAAGAGA TGGACTTTCT 
    GCAAAAGTTT TTGGCTTTGT GGCGAGGAAG GGCGCGGGCA ACCACAACAT TTGTCACCTC 
    TTTGCAGAAC ATGACCCAGA ACAACCTGCT AGTGCCATCG TAAACTTTGT GTCAAAAGTC 
    ATGATTGGCT CACAAAAGAA AATGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    tns3 ( XM_031904453.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031760313.1 Xenopus tropicalis tensin 3 (tns3), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa60848
    Clone ID Related Accession (Same CDS sequence) XM_031904452.1 , XM_031904453.1
    Accession Version XM_031904453.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product tensin-3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGCACA TCGTGGAAGA ATGCTATGAA CTTGATCTCA CCTATATCAC AGAACGCATC 
    ATTTCAGTTT CTTTTCCAAG AAGTTCCTCA GAAGAGGCTT ACATCCATAA CCTACAGGAT 
    GTTACGTGCA TGTTGAAATC AAAACATGGA GACAGTTATT TGGTTTTGAA TCTATCCGAA 
    AAAAGATATG AGCTTTCCAA ACTCAACACT GAGGTCATGG ATGTGGGTTG GCCAGACTTC 
    CATGCTCCCC CACTAGATAA GATGTGCACT ATCTGTAAAG CTATGGAGTC TTGGTTGAAC 
    AGTGACCCTT TACATGTGGT TGTAATTCAC TGCAGAGGTG AAAGGGGAAG AATAGGAGTT 
    GTCATATCAT CATATATGCA TTTTACCAAT ATTTCTGCAA GTGCTGACCA AGCTCTTGAT 
    CGCTTTGCCA TGAAGAAATT TATTGATGAT AAAGTATCAG TATTACTTCA ACCATCCCAG 
    AAAAGATATG TTAATTTTCT GAACGAACTT CTATCTGGAT TGGAAAAAAT GAATGTGATG 
    CCTCTCTTCT TGCATTCAGT TATTCTCCAC GGCATTCCAA ATTTTGATTC AGCAGACAGG 
    TGTCAATTCT TCCTAAAGAT CTACATTGCC ATGCAACCTG TGTATACATC AGGAATTTAC 
    CTTGTTGGCC CAGAAAACCA GGGTAAAATC TATATTGAAA TTGAACCAGC CCAGCTTATC 
    AAGGGAGATA TTATGCTCAA GTGTTATCAT CCGTCTGTCA CACGTGATCT TGTTTTCAGA 
    CTACAGTTTC ATACGGGGGC TATTCATAGC CATCGGGTGA TATTTTGCAA GGAGGACCTG 
    GATCATGCTA ATATTGATGA CAGATTCCCT GAATATGGGA GAATAGAACT GGTATTTTCG 
    GGAGGTCCTG AAAAAAATCC AGAAAACTTT TATAACAACC AGGGAGTAAC AATTGACTAC 
    AATACCTCTG ATCCTCTAAT AAGATGGGAT TCATATGAAA ATACAAACAT TGTCAGTGAA 
    GGCTTCTCAC ACACACAGGG GCCTCTTGAT GGTAGTTTGT ATGCCAGAGT GAGAAAGAAG 
    AGTACATCAA ATGGAATTAC TACCGTTGCT GGATCTGGTT TTCCTCTGAC CAGGAGTCCT 
    GACCACAGTG AACACTCTTT GTCTGTAAGC AGTGATTCTG GTCATTCCAC TGCTTCTATA 
    AAGAACAGAG TGACAGCCGA AAAATCTGGA TCCATAAGCA AAAAAGGTTT AAGCCCACAA 
    GAAAAAGTAG AACTGGATCA ACTGCTGAGT GGTTTTGGAG TAGAAAGCAC AATGTGTTCG 
    TTAAAGAACA TAGCTGACGG TCAAAGCAAC TATGGTGGCG TTGAGAGAAT GATCTCAGCT 
    CGGATTTATG TAAATGGAGA TGCCAAACTT AAAGACAGAG AAACGGACAT TCTAGATGAT 
    GAAATGACAA ATAATGATTT GAATAGTGTG GACAGCCTAG GTACTTTATC ATCATCCGAG 
    GGTCACCATT TTAATAATAT TGGAAATTTC AGCTGTCATG AGAGTAGTCA GAATTCTTTG 
    CTGTCTGATG GCTTTAGCAA CAAAATTGGT GAGGATCGCC ATGACGTATT AACATTGGAT 
    TTTGGTGTGC CTGTGGATTC CATGTATGAA AGATCATTTG CTGATAGACA ACTAAAACCA 
    GTTTATCTAC CGCCTACCCA AGCCCCTGCC TATGCACAAA GTAACTACTC TACTCAGTCT 
    TGGGTACGTC AACAACAAAT GGTTAGTTCT CATCGGTACG GTTATTCGGC TGATAATGAA 
    CTTATGTATA ACATGCATAG TTCTCTAGAG ACTTCTAACA TTCCCAATAC ACCAAAAGCC 
    TCTGTGATTC AAAATAAGGG ATTCCCATGT GAAAACAAAA TAACAGGTAC TTTGGAAACA 
    GATTTGTCAG ACTCTGTTCA AGACCAGGTT CCAAAGTGTA TTGAACATAT AATGCTGGAA 
    AAGGAAACAA TAAATCAAAC AGAGATAACA AACCATGATT TTCCCTCTTC TCCTACGCTG 
    GATATAGACC AGTCAATCGA ACAGCTAAAT AAATTAATCT TGGAGCTGGA TCCAACATTT 
    GAGCCCATTC CAACAAGAAT AAATACAAGT TCTACTGTTG AAAGTTCCCT AAATGCTATT 
    TTAAGTGGTG ATCTTGAGAA AGATGGTATA CTCCTGCAAA GTCCTTTAGA AGCAAAGCAA 
    GGGGGTGACA GCTTCCAAGA AGGTTCAAAA AAAGGCAGTG CATCACTGGC AGCTGCCAGA 
    AAACTGAGTT TTGGGCAGTA TGATAATGGT AACACAGACC CCCTGCAATA CTGCAGTTAT 
    GGCTGGAAGA CATCCCCTGA ACAGATTGCC TCGACAAAAA CCTTGCCCCT TATTGGACAT 
    TCAAAAGAGG GCCACACTCT TCATTACCAG GGACAGTATG ATGAAGTAGA TAATATCTTT 
    TCAAGGAGTT CTCAAGGAGT TGAGACTGTT CCTCCAACAC CTTCTTTTCC AGTATCACCA 
    GACACACCAT ATGTCAGAAC TCATCTCAGT TATTCTCAGC CACATGAAGA AGGATATCAT 
    ACACCCCATT TGACAGAAAT ACTTCATTTA GGTGGTGATA CTTCAAATTA TAGTGAAAGC 
    CGTCACCAGA CAGTGCTGGA ATCTGTTACT TCAAGTGACT TAAACTCTTC CTTGTGTATG 
    ACTGAAATGC AGAGACCAAC AGTTCCAAAG CTGTCCAATG CTGTGTTCTC CAGAAGAGAT 
    GACTGTTCTT TGGATAATGA AAATTTCTGG CTAGAAAATT CCCCCACTCC CTTGTTGTCC 
    TCACAGCCAT CTCTGAAGAG CAGATCTCAA GTGAATTGCC CGCTATCAAC AGAATATCCT 
    AATCCAATGG TAGAGAAATC AGTACTGACT CAGGAAACAA CACTTAGCCT TGAGGCTCTT 
    ACAATATGCA ATCCAGAATT TGCATCATCA AACTCTCAAG ATATCCTTGC AAACCCACAT 
    CTATACTTGA ACTTTGATGG TACTGGTAAT AACCTGCCTT TGTTGGATGA GAGACATGTA 
    GCATTTATGT CCAGTACCAA GGGTTCACCA AAAGTTGGAA GATCAGCTGA CTCTGCAATT 
    AACAGCAAAG AACAAAGAAG TCCATTCCTA CAACGTTCAG GAAAAAAAAA ATATTCACAT 
    CCTCCTCTTC CAGAGAAAAA AAGAATATCT GAAGGAGAAC ATTCATTTGG TTCTATCTCT 
    CCATCTTCCA GTGGTTTTTC AAGTCCCAAC AGTGGTAGTA CAATCAGCAT TCCATTTCCC 
    AATGTCCTTC CAGACTTTTC TCAAGTAATA AGTGAATTTC CAGTTTCAGA AAATTCTTCA 
    GATAAGCATA TGACAGTGAA ATTTGTCCAA GATACTTCTA AGTTTTGGTA TAAACCAGAC 
    ATTTCAAGAG ATCAAGCTAT TGCAGTTCTA AAGGACAAAG AACCTGGCTC TTTTATTGTA 
    AGAGACAGCC ACTCTTTCAA AGGAGCTTAT GGCCTTGCCA TGAAAGTTGC TACTCCTCCT 
    CCATCTGTAT TGCATAGTAG CAAGAAAGGT TTGGATTTGA CAAATGAACT TGTCAGGCAC 
    TTCTTGATTG AATGTGTTCA TAAGGGAGTG AGATTAAAGG GATGTCCAAA TGAACCATAT 
    TTTGGTAGTT TGACAGCCCT GGTTTATCAA CATTCCATTA CTCCACTGGC GCTACCTTGT 
    AAATTACTTA TACCAGACAA AGATCCACTG GAAGAAATTC CTGCAGCAAC ACCCCAGTCA 
    GCTGCCAATT CTGCTGCTGA ATTGCTGAAG CAAGGTGCTG CGTGCAATGT TTGGTATCTC 
    AATTCCGTGG AAATGGAGTC ACTTACTGGA TACCAAGCTG TGCAGAAGGC TTTATCTATA 
    ACACAGCTTC AGGAGCCACC TCCCATCTCA ACTGTAGTCC ATTTCAAGGT GTCTGCACAA 
    GGAATCACTC TAACTGATAA TCAAAGAAAG TTGTTTTTCC GAAGACATTA TCCAGTAAAC 
    ACTGTGATTT TCTGTGCTCT GGATCCACAA GACAGGAAGT GGACAAGAGA TGGACTTTCT 
    GCAAAAGTTT TTGGCTTTGT GGCGAGGAAG GGCGCGGGCA ACCACAACAT TTGTCACCTC 
    TTTGCAGAAC ATGACCCAGA ACAACCTGCT AGTGCCATCG TAAACTTTGT GTCAAAAGTC 
    ATGATTGGCT CACAAAAGAA AATGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_031760313.1
    CDS271..4497
    Translation

    Target ORF information:

    RefSeq Version XM_031904453.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tensin 3 (tns3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031904453.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGCACA TCGTGGAAGA ATGCTATGAA CTTGATCTCA CCTATATCAC AGAACGCATC 
    ATTTCAGTTT CTTTTCCAAG AAGTTCCTCA GAAGAGGCTT ACATCCATAA CCTACAGGAT 
    GTTACGTGCA TGTTGAAATC AAAACATGGA GACAGTTATT TGGTTTTGAA TCTATCCGAA 
    AAAAGATATG AGCTTTCCAA ACTCAACACT GAGGTCATGG ATGTGGGTTG GCCAGACTTC 
    CATGCTCCCC CACTAGATAA GATGTGCACT ATCTGTAAAG CTATGGAGTC TTGGTTGAAC 
    AGTGACCCTT TACATGTGGT TGTAATTCAC TGCAGAGGTG AAAGGGGAAG AATAGGAGTT 
    GTCATATCAT CATATATGCA TTTTACCAAT ATTTCTGCAA GTGCTGACCA AGCTCTTGAT 
    CGCTTTGCCA TGAAGAAATT TATTGATGAT AAAGTATCAG TATTACTTCA ACCATCCCAG 
    AAAAGATATG TTAATTTTCT GAACGAACTT CTATCTGGAT TGGAAAAAAT GAATGTGATG 
    CCTCTCTTCT TGCATTCAGT TATTCTCCAC GGCATTCCAA ATTTTGATTC AGCAGACAGG 
    TGTCAATTCT TCCTAAAGAT CTACATTGCC ATGCAACCTG TGTATACATC AGGAATTTAC 
    CTTGTTGGCC CAGAAAACCA GGGTAAAATC TATATTGAAA TTGAACCAGC CCAGCTTATC 
    AAGGGAGATA TTATGCTCAA GTGTTATCAT CCGTCTGTCA CACGTGATCT TGTTTTCAGA 
    CTACAGTTTC ATACGGGGGC TATTCATAGC CATCGGGTGA TATTTTGCAA GGAGGACCTG 
    GATCATGCTA ATATTGATGA CAGATTCCCT GAATATGGGA GAATAGAACT GGTATTTTCG 
    GGAGGTCCTG AAAAAAATCC AGAAAACTTT TATAACAACC AGGGAGTAAC AATTGACTAC 
    AATACCTCTG ATCCTCTAAT AAGATGGGAT TCATATGAAA ATACAAACAT TGTCAGTGAA 
    GGCTTCTCAC ACACACAGGG GCCTCTTGAT GGTAGTTTGT ATGCCAGAGT GAGAAAGAAG 
    AGTACATCAA ATGGAATTAC TACCGTTGCT GGATCTGGTT TTCCTCTGAC CAGGAGTCCT 
    GACCACAGTG AACACTCTTT GTCTGTAAGC AGTGATTCTG GTCATTCCAC TGCTTCTATA 
    AAGAACAGAG TGACAGCCGA AAAATCTGGA TCCATAAGCA AAAAAGGTTT AAGCCCACAA 
    GAAAAAGTAG AACTGGATCA ACTGCTGAGT GGTTTTGGAG TAGAAAGCAC AATGTGTTCG 
    TTAAAGAACA TAGCTGACGG TCAAAGCAAC TATGGTGGCG TTGAGAGAAT GATCTCAGCT 
    CGGATTTATG TAAATGGAGA TGCCAAACTT AAAGACAGAG AAACGGACAT TCTAGATGAT 
    GAAATGACAA ATAATGATTT GAATAGTGTG GACAGCCTAG GTACTTTATC ATCATCCGAG 
    GGTCACCATT TTAATAATAT TGGAAATTTC AGCTGTCATG AGAGTAGTCA GAATTCTTTG 
    CTGTCTGATG GCTTTAGCAA CAAAATTGGT GAGGATCGCC ATGACGTATT AACATTGGAT 
    TTTGGTGTGC CTGTGGATTC CATGTATGAA AGATCATTTG CTGATAGACA ACTAAAACCA 
    GTTTATCTAC CGCCTACCCA AGCCCCTGCC TATGCACAAA GTAACTACTC TACTCAGTCT 
    TGGGTACGTC AACAACAAAT GGTTAGTTCT CATCGGTACG GTTATTCGGC TGATAATGAA 
    CTTATGTATA ACATGCATAG TTCTCTAGAG ACTTCTAACA TTCCCAATAC ACCAAAAGCC 
    TCTGTGATTC AAAATAAGGG ATTCCCATGT GAAAACAAAA TAACAGGTAC TTTGGAAACA 
    GATTTGTCAG ACTCTGTTCA AGACCAGGTT CCAAAGTGTA TTGAACATAT AATGCTGGAA 
    AAGGAAACAA TAAATCAAAC AGAGATAACA AACCATGATT TTCCCTCTTC TCCTACGCTG 
    GATATAGACC AGTCAATCGA ACAGCTAAAT AAATTAATCT TGGAGCTGGA TCCAACATTT 
    GAGCCCATTC CAACAAGAAT AAATACAAGT TCTACTGTTG AAAGTTCCCT AAATGCTATT 
    TTAAGTGGTG ATCTTGAGAA AGATGGTATA CTCCTGCAAA GTCCTTTAGA AGCAAAGCAA 
    GGGGGTGACA GCTTCCAAGA AGGTTCAAAA AAAGGCAGTG CATCACTGGC AGCTGCCAGA 
    AAACTGAGTT TTGGGCAGTA TGATAATGGT AACACAGACC CCCTGCAATA CTGCAGTTAT 
    GGCTGGAAGA CATCCCCTGA ACAGATTGCC TCGACAAAAA CCTTGCCCCT TATTGGACAT 
    TCAAAAGAGG GCCACACTCT TCATTACCAG GGACAGTATG ATGAAGTAGA TAATATCTTT 
    TCAAGGAGTT CTCAAGGAGT TGAGACTGTT CCTCCAACAC CTTCTTTTCC AGTATCACCA 
    GACACACCAT ATGTCAGAAC TCATCTCAGT TATTCTCAGC CACATGAAGA AGGATATCAT 
    ACACCCCATT TGACAGAAAT ACTTCATTTA GGTGGTGATA CTTCAAATTA TAGTGAAAGC 
    CGTCACCAGA CAGTGCTGGA ATCTGTTACT TCAAGTGACT TAAACTCTTC CTTGTGTATG 
    ACTGAAATGC AGAGACCAAC AGTTCCAAAG CTGTCCAATG CTGTGTTCTC CAGAAGAGAT 
    GACTGTTCTT TGGATAATGA AAATTTCTGG CTAGAAAATT CCCCCACTCC CTTGTTGTCC 
    TCACAGCCAT CTCTGAAGAG CAGATCTCAA GTGAATTGCC CGCTATCAAC AGAATATCCT 
    AATCCAATGG TAGAGAAATC AGTACTGACT CAGGAAACAA CACTTAGCCT TGAGGCTCTT 
    ACAATATGCA ATCCAGAATT TGCATCATCA AACTCTCAAG ATATCCTTGC AAACCCACAT 
    CTATACTTGA ACTTTGATGG TACTGGTAAT AACCTGCCTT TGTTGGATGA GAGACATGTA 
    GCATTTATGT CCAGTACCAA GGGTTCACCA AAAGTTGGAA GATCAGCTGA CTCTGCAATT 
    AACAGCAAAG AACAAAGAAG TCCATTCCTA CAACGTTCAG GAAAAAAAAA ATATTCACAT 
    CCTCCTCTTC CAGAGAAAAA AAGAATATCT GAAGGAGAAC ATTCATTTGG TTCTATCTCT 
    CCATCTTCCA GTGGTTTTTC AAGTCCCAAC AGTGGTAGTA CAATCAGCAT TCCATTTCCC 
    AATGTCCTTC CAGACTTTTC TCAAGTAATA AGTGAATTTC CAGTTTCAGA AAATTCTTCA 
    GATAAGCATA TGACAGTGAA ATTTGTCCAA GATACTTCTA AGTTTTGGTA TAAACCAGAC 
    ATTTCAAGAG ATCAAGCTAT TGCAGTTCTA AAGGACAAAG AACCTGGCTC TTTTATTGTA 
    AGAGACAGCC ACTCTTTCAA AGGAGCTTAT GGCCTTGCCA TGAAAGTTGC TACTCCTCCT 
    CCATCTGTAT TGCATAGTAG CAAGAAAGGT TTGGATTTGA CAAATGAACT TGTCAGGCAC 
    TTCTTGATTG AATGTGTTCA TAAGGGAGTG AGATTAAAGG GATGTCCAAA TGAACCATAT 
    TTTGGTAGTT TGACAGCCCT GGTTTATCAA CATTCCATTA CTCCACTGGC GCTACCTTGT 
    AAATTACTTA TACCAGACAA AGATCCACTG GAAGAAATTC CTGCAGCAAC ACCCCAGTCA 
    GCTGCCAATT CTGCTGCTGA ATTGCTGAAG CAAGGTGCTG CGTGCAATGT TTGGTATCTC 
    AATTCCGTGG AAATGGAGTC ACTTACTGGA TACCAAGCTG TGCAGAAGGC TTTATCTATA 
    ACACAGCTTC AGGAGCCACC TCCCATCTCA ACTGTAGTCC ATTTCAAGGT GTCTGCACAA 
    GGAATCACTC TAACTGATAA TCAAAGAAAG TTGTTTTTCC GAAGACATTA TCCAGTAAAC 
    ACTGTGATTT TCTGTGCTCT GGATCCACAA GACAGGAAGT GGACAAGAGA TGGACTTTCT 
    GCAAAAGTTT TTGGCTTTGT GGCGAGGAAG GGCGCGGGCA ACCACAACAT TTGTCACCTC 
    TTTGCAGAAC ATGACCCAGA ACAACCTGCT AGTGCCATCG TAAACTTTGT GTCAAAAGTC 
    ATGATTGGCT CACAAAAGAA AATGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

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